Carlson Unveils Scan2K Terrestrial Scanner - 16/01/2020
Carlson Software has released its Scan2K laser scanner, a versatile and user-friendly solution for the creation of accurate 3D survey data up to a range of 2,000 ('2k') metres. The announcement was made at the Pennsylvania Society of Land Surveyors’ 2020 Conference. “The Scan2K addresses the diverse range of applications for a laser scanner in the surveying and mining industries,” says Bradley Husack, a special projects engineer at Carlson.
Built with surveyors in mind, the Scan2K is at home in the field with its weather-proof housing, user-friendly sunlight-visible touch screen interface with simple, menu-driven operations for quickly collecting and georeferencing point cloud data. With an integrated high-resolution camera, inclinometers, a compass, and an L1 GNSS receiver, the Scan2K can be deployed in many environments and orientations, including mobile operations.
Carlson’s partner on the Scan2K project is Teledyne Optech, a world leader in 3D survey systems. Carlson will be the exclusive global distributor of the OEM Scan2K solution.
Four returns per pulse
Beyond its impressive 2,000-metre range, the Scan2K also has short- and medium-range modes, as well as the capability to record over 500,000 points per second, all within the chosen scanning target window. Additionally, each laser pulse from the Scan2K records up to four returns, providing the capability to record the first return for a blocking object (such as a leaf) as well as the last return for an object behind it (such as a wall), and the versatility to exclude one or the other.
The Carlson Scan2K comes bundled with ATLAScan software, a powerful solution for registering the point cloud, as well as Carlson Point Cloud Advanced for feature extraction into Carlson’s suite of CAD office products. The new laser scanner is ready to be equipped with an additional external camera, an external GNSS receiver, or for mobile operation.
For more information about the Carlson Scan2k, please go here.Last updated: 18/02/2020